A method of manufacturing a laminated substrate including an insulation substrate comprised of ceramic, and a front electrode formed on a front surface of the insulation substrate, a semiconductor element being mountable on a front surface of the front electrode, including forming the front electrode on the front surface of the insulation substrate, and before or after the forming the front electrode, applying laser processing to the front surface of the insulation substrate at an outer peripheral area of the front electrode to modify a conductive property of the front surface of the insulation substrate to have electrical conductivity.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A method of manufacturing a laminated substrate including an insulation substrate comprised of ceramic, and a front electrode formed on a front surface of the insulation substrate, a semiconductor element being mountable on a front surface of the front electrode, the method comprising: forming the front electrode on the front surface of the insulation substrate; and before or after the forming the front electrode, laser processing the front surface of the insulation substrate to modify a conductive property of the front surface of the insulation substrate to have electrical conductivity, thereby forming a modified region along an outer peripheral area of the front electrode, wherein the modified region extends outwardly from an edge of the front electrode, and inwardly beneath the front electrode.
2. The method of manufacturing a laminated substrate according to claim 1 , wherein the insulation substrate is comprised of ceramic containing aluminum nitride as a major component.
3. The method of manufacturing a laminated substrate according to claim 1 , wherein the laser processing includes forming the modified region along an entire outer periphery of the front electrode.
4. The method of manufacturing a laminated substrate according to claim 1 , further comprising forming a rear electrode on a rear surface of the insulation substrate, before or after the forming the rear electrode, laser processing the rear surface of the insulation substrate at an outer peripheral area of the rear electrode to modify a conductive property of the rear surface of the insulation substrate to have electrical conductivity.
5. A method of manufacturing a semiconductor module, the method comprising mounting a semiconductor element on the laminated substrate manufactured by the method according to claim 1 .
6. The method of manufacturing a laminated substrate according to claim 1 , wherein the modified region surrounds an entire outer periphery of the front electrode.
7. The method of manufacturing a laminated substrate according to claim 1 , wherein the modified region is exposed from the front surface of the laminated substrate.
8. The method of manufacturing a laminated substrate according to claim 1 , wherein the front electrode comprises a metal plate that is joined to the insulation substrate.
9. A method of manufacturing a laminated substrate including an insulation substrate comprised of ceramic, and a front electrode formed on a front surface of the insulation substrate, a semiconductor element being mountable on a front surface of the front electrode, the method comprising: forming the front electrode on the front surface of the insulation substrate; and before or after the forming the front electrode, laser processing the front surface of the insulation substrate to modify a conductive property of the front surface of the insulation substrate to have electrical conductivity, thereby forming a modified region along an outer peripheral area of the front electrode, wherein the laser processing includes forming the modified region so as to be spaced apart from an outer surface of the front electrode and electrically disconnected from the front electrode.
10. The method of manufacturing a laminated substrate according to claim 9 , wherein the laser processing is applied before the forming the front electrode on the front surface of the insulation substrate.
11. The method of manufacturing a laminated substrate according to claim 9 , wherein the laser processing is applied after the forming the front electrode on the front surface of the insulation substrate.
12. A method of manufacturing a laminated substrate including an insulation substrate comprised of ceramic, and a front electrode formed on a front surface of the insulation substrate, a semiconductor element being mountable on a front surface of the front electrode, the method comprising: forming the front electrode on the front surface of the insulation substrate; and before or after the forming the front electrode, laser processing the front surface of the insulation substrate to modify a conductive property of the front surface of the insulation substrate to have electrical conductivity, thereby forming a modified region along an outer peripheral area of the front electrode, wherein forming the front electrode includes forming the front electrode on the front surface of the insulation substrate via a metallic junction layer, the metallic junction layer outwardly extending from a surface of the front electrode, and the laser processing is applied to the front surface of the insulation substrate at an outer peripheral area of the metallic junction layer.
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July 1, 2019
May 11, 2021
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